For over two decades, Ian Brooke has wanted to build his very own airplane – one he entirely designed from engine to airfoil. Now, he’s getting that opportunity, and it just so happens that this craft could revolutionize air travel as we know it.
The 34-year-old Brooke is CEO of Astro Mechanica, a Y Combinator-backed startup that has invented a new kind of jet engine, one that’s radically more efficient and versatile than anything that has come before.
A jet engine is a remarkable machine – powerful enough to propel a commercial passenger airplane weighing half a million pounds at speeds of 650 miles per hour, and efficient enough to do that for over half a day with onboard fuel. How does this modern marvel work? The short, famous answer is “Suck, squeeze, bang, blow.” The long answer isn’t much more complicated.
Gobs of air – roughly 2,600 pounds worth – enter in the front of a jet engine each second, at the physical urging of a compressor fan rotating as fast as a thousand miles per hour. That’s the “suck.” This long fan tapers towards the back as the engine chamber narrows, squeezing the air to vastly higher pressures. The air then enters combustion chambers where fuel is sprayed and the mixture ignited with a “bang”! Gasses that form explosively expand and “blow” through the engine’s rear, providing thrust in the forward direction. As the gasses leave the engine, they pass through a fan-like set of blades called a turbine, which rotates a shaft that in turn spins the compressor at the front.
So despite their powerful mystique to many a layperson, jet engines are surprisingly simple beasts of engineering. This raises the question, what could possibly be improved?
Astro Mechanica claims the Turboelectric Adaptive Engine will unlock massive efficiency gains at all speeds, but especially at supersonic speeds up to Mach 3.4 (about 2,600 miles per hour).
Brooke and Astro Mechanica’s potentially flight-altering idea is to instead use electric motors to drive the compressor. Electric motors have grown vastly more efficient and shrunk in size over the past couple decades, improvements spurred by electric vehicle adoption. These electric motors are powered by turbogenerators, which in turn create their energy from air flow and fuel. Unlike current jet engines, whose compressors operate at whatever rotation rate the jet engine’s air flow is spinning them, the compressor of Astro Mechanica’s engine can rotate at various speeds. This is a big deal – so big that the engine is named for it: the Turboelectric Adaptive Engine. Dynamically changing the speed of the compressor to match the needs of the engine depending on the flight velocity makes the Turboelectric Adaptive Engine engine more energy efficient at any speed.
“As you go faster, you only want to push air out the back faster as you’re going faster forward. This is a very simple way to do that,” Brooke explained to Freethink in an interview.
He uses a bike analogy to explain his engine’s advance. Right now, jet planes are essentially using a higher gear when starting from a dead stop or operating below cruising speeds. They’re doing much more work than they need to, wasting precious fuel.
“Concorde burned 57.5% of its fuel at subsonic speeds. That engine was so bad at low speeds,” Brooke said, referring to the infamously expensive supersonic airliner that once cruised across the Atlantic at 1,350 miles per hour.
Astro Mechanica claims the Turboelectric Adaptive Engine will unlock massive efficiency gains at all speeds, but especially at supersonic speeds up to Mach 3.4 (about 2,600 miles per hour). The company also intends for their plane and engine to be powered with liquefied natural gas (LNG), rather than conventional jet fuel. Why? Because LNG emits 30% less carbon dioxide than jet fuel and is presently one-tenth the price.
Brooke says that aircraft makers, airports, and engine designers don’t use LNG because it would require a complete redesign of commercial planes and airport infrastructure, at total costs reaching into the tens of billions or more. Considering this entrenched roadblock, he notes that the Turboelectric Adaptive Engine could easily be built to run on jet fuel, as well.
Freethink contacted jet engine experts at various institutions, asking if they could spot any clear red flags with the startup’s pioneering engine and game-changing proposal to utilize LNG. Those who replied said there would be engineering difficulties but didn’t spot any obvious physical limitations. To borrow a phrase, Brooke’s idea just might work.
Rural Roots
That idea was born out of the boundless curiosity that Brooke experienced growing up in rural Sonoma County, California. As a youth, the Redwood forests were his playground. He could look up and see the mighty trees stretching high into the air, appearing to touch the sky itself.
“I think it is better to grow up in a rural area, because the only actual laws are the laws of nature,” he told Freethink. “If you grow up in a city, you learn fake human rules. Now they’re good rules to know, maybe useful for navigating society… but a level down from what the actual truth is.”
His family was a “motorcycle family,” Brooke described, recalling how his mom once broke both her arms while popping a wheelie.
“They liked their machines.”
His fundamental aim isn’t to run a wildly successful company and become super rich and famous — it’s to build his dream plane.
So did Brooke. From a tender age, he was enamored with vehicles. At first it was any kind – the bigger the better. He soon decided that planes were the coolest kind of vehicle, however, and they quickly became his fixation.
In November 2003, Brooke met an American Airlines captain and aircraft mechanic. The experienced aviator took the bright and curious teenager under his wing, launching a mentorship that still endures today. One of his earliest lessons was teaching Brooke to build model aircraft.
Brooke assembled planes at first, but model helicopters truly tested his burgeoning engineering skills and his youthful mettle. “They were immensely difficult to fly; they could decapitate you,” he remembered, laughing. “The later ones I built were big enough to truly take your head off.”
By the time he was in high school, Brooke graduated to building real planes with his mentor’s guidance. He was beginning to realize that he wanted to make his very own aerospace company.
This growing sense of purpose crystallized for Brooke when he and his mentor visited an airshow and saw a McDonnell Douglas F-15 Eagle fighter jet up close.
“Wouldn’t you want to fly that?” his mentor asked. Ian did, but he didn’t want to join the military, flying only where and when you were ordered to. He wanted to fly on his terms, in a craft he himself created.
Faster, Forward
Roughly two decades later, as CEO of Astro Mechanica, Brooke’s desires remain the same. His fundamental aim isn’t to run a wildly successful company and become super rich and famous — it’s to build his dream plane. Laser-focused on that goal, he doesn’t spend much time building up his own personal brand like other tech entrepreneurs. Brooke rarely tends his social media accounts, only posting eleven times on X in the past year. Moreover, he thinks that entrepreneurs who seem to prefer attention over working on their own projects are not to be trusted.
Brooke’s unflashy style was somewhat of an impediment when he initially attempted to raise investor money to launch Astro Mechanica. His lack of academic credentials didn’t help either. Brooke doesn’t have an engineering degree, or even a high school diploma.
“I failed in high school because I was building an airplane,” he said.
Brooke understood investors’ skepticism. If the roles were flipped, he would be skeptical too. There was no MIT, RPI, or CalTech education in his past and no famous PhD advisor to vouch for him.
“Generally speaking, it’s a pretty good filter. I am just this weird outlier.”
Ultimately, though, he thinks outcomes and knowledge speak to expertise more than a stamp of approval from academia. Brooke previously ran a successful company machining motorcycle parts of his own design. And after investors had established aerospace experts vet Brooke and his plan, money poured in.
At a date yet to be determined, they will affix four Turboelectric Adaptive Engines along with two General Electric CT7 engines to their aircraft and fly it nonstop from San Francisco to Tokyo at supersonic speeds, gathering data the whole way across the Pacific.
Brooke has since filled the ranks of Astro Mechanica with engineers who share his “build first, talk later” ethos. The tidy team, numbering less than a dozen, has kept their heads down and delved completely into making Brooke’s engine a reality. They’ve made solid progress, already test-firing two scaled-down engines and planning to publicly demonstrate a full-size model on October 25.
After that, Brooke told Freethink, they’ll spend a year making the engine as light and lean as possible, while designing and building a 20,000-pound plane, essentially a mid-size private jet. Then, at a date yet to be determined, they will affix four Turboelectric Adaptive Engines along with two General Electric CT7 engines to their aircraft and fly it nonstop from San Francisco to Tokyo at supersonic speeds, gathering data the whole way across the Pacific. If that data looks good, then things could really start to get exciting for Astro Mechanica.
Brooke intends to first use this engine to power a mothership that will launch small, satellite-carrying rockets into space, generating significant revenue for the company. (This could sidestep the issues with using LNG as fuel, as well, since the company would be using its own infrastructure.) Next, he envisions the Turboelectric Adaptive Engine will propel supersonic private jets. These would not only be far faster but also cheaper and more sustainable than what’s presently available. At some point down the road, he hopes the engine will make it into commercial airliners, making air travel cheaper and faster for everyone.
Oh, and he wants a couple Turboelectric Adaptive Engines for an aircraft all his own.
“I just want an airplane,” Brooke said.
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